JPH09254394A - Ink jet head - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance the wiping properties of an ink jet head by constituting the ink jet head along with the peripheral edge member of a nozzle forming member and applying water repelling treatment to the surface opposed to a recording medium of the nozzle cover covering the head. SOLUTION: Lamination type piezoelectric elements wherein drive parts and liquid chamber parts are alternately arranged are arranged on a substrate and a vibration plate is bonded to the upper surfaces of the lamination type piezoelectric elements and the upper surface of a frame. A liquid chamber passage forming member is bonded to the vibration plate and a nozzle plate 1 being a nozzle forming member having nozzles 14 formed thereto is bonded to the vibration plate and the peripheral edge part of the nozzle plate 15 and the side surface of a head are covered with a nozzle cover 39 and water repelling treatment is applied to the surface 40 opposed to the recording medium of the nozzle cover. Therefore, the remaining of ink on the opposed surface of the recording medium is prevented and wiping capacity can be enhanced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an inkjet head, and more particularly to an inkjet head having a nozzle forming member whose surface is subjected to a water repellent treatment.

[0002]

2. Description of the Related Art Since an ink jet recording apparatus has almost no vibration or noise during recording and it is particularly easy to color,
In addition to a printer that outputs data from a digital processing device such as a computer, it is also used for facsimile machines, copiers, and the like.

In an ink jet head used in such an ink jet recording apparatus, ink (ink droplets) formed from a nozzle by driving an energy generating means (actuator) such as a piezoelectric element and a heating resistor.
In order to eject the ink, the shape and accuracy of the nozzles affect the ink droplet ejection characteristics (ink droplet ejection performance), and the surface characteristics of the nozzle forming member forming the nozzles affect the ink droplet ejection characteristics. Influence. For example, when the ink adheres to the periphery of the nozzle on the surface of the nozzle forming member and uneven ink pool (so-called uneven wetting) occurs, the ejection direction of the ink droplet is bent, and the size of the ink droplet varies. It is known that inconveniences such as an unstable flying speed of ink droplets occur.

Therefore, in the conventional ink jet recording apparatus, the surface of the nozzle forming member is subjected to water repellent treatment on the ink jet head itself, and the surface of the nozzle forming member of the ink jet head is wiped with an elastic member and left on the apparatus side. A reliability recovery mechanism for removing ink and adhered substances is provided (for example, Japanese Patent Laid-Open No. 4-3570).
44, JP-A-6-143606, etc.).

As the water repellent treatment, for example, a method of applying a water repellent such as a silicon water repellent or a fluorine water repellent (see Japanese Patent Laid-Open No. 55-65564), a fluoroalkoxysilane surface, etc. Method of treatment (JP-A-56-89)
569), a method of forming a plasma polymerized film of a fluorine compound or a silane compound (Japanese Patent Laid-Open No. 64-873).
59), a method of treating with a fluorosilicone coating agent (see JP-A-2-39944), and a method of forming a water repellent layer by fluoropolymer eutectoid plating (JP-A-63-3963). JP-A-4-294145) is known.

[0006]

By the way, when an ink jet head is attached to an ink jet recording apparatus,
It may be considered that the inkjet head is housed in a nozzle cover that covers the peripheral portion of the nozzle forming member and the side surface of the head, and is mounted on the apparatus main body. In this case, even if the surface of the nozzle forming member of the inkjet head is water-repellent, since the nozzle cover is not water-repellent, ink remains on the surface of the nozzle cover by wiping. A situation such as soiling the recording medium will occur.

The present invention has been made in view of the above points, and an object thereof is to improve the wiping performance of an ink jet head having a nozzle cover.

[0008]

In order to solve the above problems, an ink jet head according to a first aspect of the present invention is an ink jet head in which a surface of a nozzle forming member having nozzles is subjected to a water repellent treatment. A nozzle cover that covers the peripheral edge of the nozzle forming member and the side surface of the head was provided, and the surface of the nozzle cover facing the recording medium was subjected to water repellent treatment.

According to a second aspect of the present invention, there is provided an ink jet head having a nozzle forming member having nozzles, the surface of which has been subjected to a water repellent treatment. The ink jet head covers a peripheral portion of the nozzle forming member and a side surface of the head. A cover was provided, and a concave groove was formed on the side surface of this nozzle cover.

According to a third aspect of the present invention, there is provided an ink jet head in which a surface of a nozzle forming member having nozzles is subjected to a water repellent treatment, and the ink jet head covers a peripheral portion of the nozzle forming member and a side surface of the head. A cover was provided, and the surface of the nozzle cover was roughened.

An ink jet head according to a fourth aspect is the ink jet head according to any one of the first to third aspects, in which an absorbing member capable of absorbing ink is provided on a side surface of the nozzle cover.

[0012]

Embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is an exploded perspective view showing an example of an inkjet head to which the present invention is applied, FIG. 2 is a sectional view of an essential part of the inkjet head, and FIG. 3 is a sectional view of an essential part of the inkjet head in a direction orthogonal to FIG. .

In this ink jet head, two laminated piezoelectric elements 2 are bonded and arranged on an insulating substrate 1 made of ceramic, glass epoxy resin or the like. Surrounding frame 3
Are joined. Here, in the laminated piezoelectric element 2, a driving portion 4 which is an actuator element and a non-driving portion 5 which simply fixes and supports the liquid chamber member are alternately arranged. Further, the upper surfaces of the laminated piezoelectric element 2 and the frame 3 are positioned or ground on substantially the same plane.

A vibration plate 7 is bonded to the upper surfaces of the laminated piezoelectric element 2 and the frame 3. This diaphragm 7 is composed of a diaphragm 8 serving as a displacement portion, a beam 9 joined to the non-driving portion 5, and a base 10 joined to the frame 3, and the diaphragm 8 has a convex portion 11 facing the driving portion 4.
And the thin film portion 12. The substrate 1 is bonded to the laminated piezoelectric element 2 and the diaphragm 7 with an adhesive 6.

A liquid chamber flow path forming member 13 made of a photosensitive resin film having a two-layer structure is adhered on the vibrating plate 7, and a plurality of nozzles 14 are formed on the liquid chamber flow path forming member 13. The nozzle plate 15, which is a member, is bonded. The liquid chamber flow path forming member 13 is composed of an upper partition wall 17 and a lower partition wall 18, and is located on both sides of the pressurized liquid chamber 19 facing the drive unit 4, the pressurized liquid chamber 19 together with the vibrating plate 7 and the nozzle plate 15. Ink supply passage 21 that also serves as a fluid resistance portion that connects the common liquid chamber 20, the pressurized liquid chamber 19, and the common liquid chamber 20.
Is formed.

Here, as shown in FIGS. 2 and 3, the laminated piezoelectric element 2 has a thickness of 20 to 50 μm / 1 layer of PZT.
(= Pb (Zr · Ti) O ₃ ) 23 and an internal electrode 24 made of silver / paradium (AgPd) having a thickness of several μm / 1 layer are alternately laminated. A piezoelectric element with a thickness of 20-5
By using a laminated type of 0 μm / 1 layer, the driving voltage can be lowered, and the electric field strength of the piezoelectric element can be 1000 V / mm with a pulse voltage of 20 to 50 V, for example. The material used for the piezoelectric element is not limited to the above, but BaTi that is generally used as the piezoelectric element material.
Ferroelectric materials such as O ₃ , PbTiO ₃ and (NaK) NbO ₃ can also be used.

Each inner electrode 24 of the laminated piezoelectric element 2 is connected to the left and right outer electrodes 25 and 26 made of AgPd every other layer. On the other hand, on the substrate 1, the laminated piezoelectric element 2
A common electrode pattern 27 for applying a drive waveform to the drive section 4 and an individual electrode pattern 28 for giving a selection signal to the drive section 4 are provided between the respective columns. There is. Then, the external electrode 25 of the drive unit 4
Is connected to the common electrode pattern 27 via a conductive adhesive 30 such as silver paste, and the external electrode 26 is connected to the individual electrode pattern 28 via the conductive adhesive 30.
The common electrode pattern 27 is formed by applying a conductive adhesive 30 in the hole 31 formed in the central portion of the frame 3 so that each pattern portion is electrically connected. Then, the FPC cables 32 and 33 are connected to the common electrode pattern 27 and the individual electrode pattern 28, respectively.

Further, the surface of the nozzle plate 15 is provided with a water-repellent treatment portion 15A that has been subjected to a water-repellent treatment and a non-water-repellent treatment portion 15B that has not been subjected to a water-repellent treatment of the surrounding area. Ink supply holes 35, 36, 37 for supplying ink supplied from the outside to the common liquid chamber 20 are formed in the substrate 1, the frame 3, and the vibration plate 7, respectively.

In this ink jet head, the substrate 1 after assembling each of the above parts is mounted on a head holder 38, and a nozzle cover 39 covering the peripheral edge portion of the nozzle plate 15 and the side surface of the head is covered. Non-water repellent treatment part 15B of nozzle plate 15 or frame 3
It is fixed to the upper surface with an adhesive.

In this ink jet, a drive waveform is applied to the drive section 4 via the common electrode pattern 27, and a selection signal corresponding to a recorded image is applied to the drive section 4 via the individual electrode pattern 28, thereby making selection. Displacement in the stacking direction occurs in the driven unit 4 and the corresponding pressurized liquid chamber 19 is pressed through the diaphragm 8 of the vibrating plate 7, whereby the ink in the pressurized liquid chamber 19 is pressed and the nozzle An ink droplet is ejected from 14 to be ejected to record an image on a recording medium.

Therefore, an embodiment of the nozzle cover according to the present invention will be described with reference to FIG. FIG. 4 is a perspective view of the ink jet head showing the first embodiment of the present invention. In the first embodiment, the surface 40 of the nozzle cover 39 facing the recording medium is subjected to water repellent treatment. For the water repellent treatment, various treatment methods as described above used in the water repellent treatment of the nozzle plate 15 can be applied.

As described above, the nozzle cover which covers the peripheral portion of the nozzle forming member and the side surface of the head is provided, and the surface of the nozzle cover facing the recording medium is subjected to water repellent treatment, so that the recording medium of the nozzle cover is wiped. The remaining wiping on the facing surface can be removed and the wiping performance is improved.

FIG. 5 is a perspective view of an ink jet head showing a second embodiment of the present invention. In the second embodiment, a large number of concave grooves 41 are formed on both side surfaces 39a of the nozzle cover 39. Therefore, unnecessary ink is absorbed by the groove 41 when the surface of the nozzle plate 15 is wiped.

As described above, the nozzle cover which covers the peripheral portion of the nozzle forming member and the side surface of the head is provided, and by forming a concave groove on the side surface of the nozzle cover, unnecessary ink when wiping the surface of the nozzle plate is generated. The wiping performance is improved by being absorbed by the groove.

FIG. 6 is a perspective view of an ink jet head showing a third embodiment of the present invention. In the third embodiment, both side surfaces of the nozzle cover 39 are roughened surfaces 42 that are roughened chemically or mechanically or electrically.
Therefore, when the surface of the nozzle plate 15 is wiped, unnecessary ink is absorbed by the rough surface 42 due to the capillary phenomenon.

As described above, the nozzle cover which covers the peripheral portion of the nozzle forming member and the side surface of the head is provided, and unnecessary ink when wiping the surface of the nozzle plate by roughening the side surface of the nozzle cover is generated. It is absorbed and the wiping performance is improved.

FIG. 7 is a perspective view of an ink jet head showing a fourth embodiment of the present invention. In the fourth embodiment, the grooves as described above are formed on both side surfaces of the nozzle cover 39,
Alternatively, an ink absorbing member 43 such as a sponge or felt capable of absorbing ink is provided after being subjected to a surface roughening treatment for chemically, mechanically or electrically roughening. Therefore,
When wiping the surface of the nozzle plate 15, unnecessary ink is absorbed and held by the ink absorbing member 43 through the groove and the rough surface.

As described above, the nozzle cover which covers the peripheral portion of the nozzle forming member and the side surface of the head is provided, and the ink absorbing member is provided on the side surface of the nozzle cover to absorb unnecessary ink when the nozzle plate surface is wiped. As a result, the wiping performance is improved.

The first embodiment and the second, third and fourth embodiments
The examples can also be combined.

[0030]

As described above, according to the ink jet head of the first aspect, the surface of the nozzle forming member facing the peripheral surface of the nozzle forming member and the recording medium of the nozzle cover facing the side surface of the head is subjected to the water repellent treatment. Therefore, it is possible to prevent the ink from remaining on the surface facing the recording medium and improve the wiping performance.

According to the ink jet head of the second aspect, since the concave groove is formed in the peripheral portion of the nozzle forming member and the side surface of the nozzle cover covering the side surface of the head, unnecessary ink can be absorbed and the wiping performance is improved. .

According to the ink jet head of the third aspect, since the peripheral surface of the nozzle forming member and the side surface of the nozzle cover that covers the side surface of the head are roughened, unnecessary ink can be absorbed and the wiping performance is improved. To do.

According to the ink jet head of claim 4, in the ink jet head according to any one of claims 1 to 3, since the absorbing member capable of absorbing ink is provided on the side surface of the nozzle cover, unnecessary ink can be absorbed and held. Wiping performance is further improved.

[Brief description of drawings]

FIG. 1 is an exploded perspective view showing an example of an inkjet head to which the present invention is applied.

FIG. 2 is a schematic sectional view of the inkjet head.

FIG. 3 is a schematic cross-sectional view of the inkjet head in a direction orthogonal to FIG.

FIG. 4 is an external perspective view showing a first embodiment of the present invention.

FIG. 5 is an external perspective view showing a second embodiment of the present invention.

FIG. 6 is an external perspective view showing a third embodiment of the present invention.

FIG. 7 is an external perspective view showing a fourth embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Substrate, 2 ... Multilayer piezoelectric element, 3 ... Frame, 4 ... Drive part, 5 ... Non-drive part, 7 ... Nozzle plate, 13 ... Liquid chamber flow path forming member, 14 ... Nozzle, 15 ... Nozzle plate,
15A ... Water repellent treatment portion, 15B ... Non-water repellent treatment portion, 38 ... Head holder, 39 ... Nozzle holder, 40 ... Recording medium facing surface, 41 ... Groove, 42 ... Rough surface, 43 ... Ink absorbing member.

Continued on the front page (72) Inventor Hideyuki Makita 1-3-6 Nakamagome, Ota-ku, Tokyo Inside Ricoh Company (72) Inventor Tsutomu Sasaki 1-3-6 Nakamagome, Ota-ku, Tokyo Inside Ricoh Company

Claims (4)

[Claims] 1. An ink-jet head having a nozzle-forming member having a nozzle formed thereon, the surface of which is water-repellent treated, the ink-jet head having a nozzle cover for covering a peripheral portion of the nozzle-forming member and a side surface of the head. An ink jet head, wherein a surface of the cover facing the recording medium is subjected to a water repellent treatment. 2. An ink jet head having a nozzle-forming member having a nozzle formed thereon, the surface of which is water-repellent treated, the ink-jet head having a nozzle cover for covering a peripheral portion of the nozzle-forming member and a side surface of the head. An inkjet head having a concave groove formed on a side surface of a cover. 3. An ink-jet head having a nozzle-forming member having a nozzle formed thereon, the surface of which is water-repellent treated, the ink-jet head having a nozzle cover for covering a peripheral portion of the nozzle-forming member and a side surface of the head. An inkjet head characterized in that a side surface of the cover is roughened. 4. The inkjet head according to claim 1, wherein an absorbing member capable of absorbing ink is provided on a side surface of the nozzle cover.